Protection and control VIP300 Technical manual contents 1. presentation of the VIP300............................................................... 3 2. use and settings ............................................................................... 4 3. choice of sensors and operating ranges .......................................... 9 4. connection scheme .......................................................................... 10 5. assembly .......................................................................................... 11 6. IDMT tripping curves ........................................................................ 13 7. technical characteristics ................................................................... 17 8. testing of the VIP300 and use of the VAP6 ...................................... 20 2 technical manual VIP300 1. presentation of the VIP300 self-powered protective relay n The VIP300 relay is designed for use in distribution networks. It may be used as MV/LV transformer protection, protection at the incoming point of industrial installations, and also as branch feeder protection. n The VIP300 provides protection against phase-to-phase faults and earth faults. The choice of tripping curves and the multiple settings allow it to be used in a wide variety of discrimination plans. The VIP300 is a self-powered relay, energized by the current sensors; it does not require any auxiliary source. It actuates a Mitop release. Mitop VIP300 - simplified wiring scheme - t phase protection t> t>> 1,2Is 10Is I>> - phase or earth fault curves - I The phase protection has two separately adjustable settings: n the low setting may be chosen with definite time or IDMT. The IDMT curves are in compliance with the IEC 255-3 standard. They are of the standard inverse, very inverse and extremely inverse types. The low setting may also be used with the RI curve. n the high setting is of the definite time type. earth protection The earth fault protection operates by residual current measurement: it uses the sum of the sensor secondary currents. Like phase protection, earth protection has two separately adjustable settings. LL and LH models There are two models of the VIP300: VIP300LL and VIP300LH, They differ with respect to : n operating range. Refer to the chapter entitled "choice of sensors and operating ranges". n the VIP300LH has a table for setting "equivalent time multiplier" conversion on the front. technical manual VIP300 sensors In order for the specified performances to be obtained, the VIP300 relay must be used with the following current transformers: n CRa and CRb sensors: (for RM6s 1998 and later). n CSa and CSb sensors of the SFset circuit breaker. The CSa and CSb sensors have the same number of secondary turns as the CRa and CRb sensors respectively. n 200/1 and 800/1 sensors of the Ringmaster: description n The VIP300 relay is mounted in a polycarbonate injected casing which protects it against dripping water and dusty environments. The front is protected by a transparent cover fitted with a sealing joint. The cover may be lead-sealed to prohibit access to the settings. n Rotating selector switches are used for setting. The phase setting current and earth fault setting current are set in amperes. This means that the scale on the front must be adapted to suit the sensor used. This is done by positioning a "setting scale label" on the relay at the time of assembly. n Connections are made on the back using fast-on clips. indication Two indicators indicate the origin of tripping (phase or earth). They stay in position after a break in the relay power supply. Two LEDs (phase and earth) indicate that the low setting has been overrun and that the time delay is running. 3 2. use and settings front view 1 2 3 phase overcurrent 4 I> sensors: CRa 51007003F0 6 7 8 VI EI 1.5 off RI DT b a 3 curve selection Is trip 1 10 VIP 300 9 2.4 2.7 1.2 9 I>> DT only 1.8 2.1 SI VIP300LL range: x 1 I> 5 12 EI, VI, SI 15 20 off 6 4 3 (x Is) DT (x Is) 21 24 28 18 15 36 12 10 40 50 f RI 32 45 0.15 0.2 0.3 0.1 0.4 0.07 0.05 x 10 x1 0.6 1.5 0.03 (sec) t> (A) 0.2 0,4 0.1 0,6 0,9 0.05 t>> t> t>> (sec) Is 1.2Is I> 10Is I>> reset c minimum operating phase current : 10A Io> d 1.8 SI off 8 6 4 2 4 15 3 3 (x Ios) 20 off (x Ios) 16 20 25 30 1 40 35 (A) earth fault 12 6 2.7 1.2 curve selection Io> 9 2.4 1 DT Ios12 2.1 1.5 RI trip Io>> DT only VI EI 0.1 0.15 0.2 0.3 0.07 0.05 0.4 (sec) 0.6 0.2 0.1 x 10 0,4 x1 0.03 to> e 0,6 0,9 0.05 1.5 (sec) to>> VAP6 test plug - front panel - 11 4 12 13 14 15 16 17 18 19 20 phase protection earth protection other functions 1. phase setting zone 2. setting overrun indicator 3. phase trip indicator 4. phase setting current Is 5. choice of low setting curve type 6. low setting I> 7. low setting time delay t> 8. multiplying factor (low setting) 9. high setting I>> 10. high setting time delay t>> 11. earth setting zone 12. setting overrun indicator 13. earth trip indicator 14. earth setting current Ios 15. choice of low setting curve type 16. low setting Io> 17. low setting time delay to> 18. multiplying factor (low setting) 19. high setting Io>> 20. high setting time delay to>> a. setting scale label b. sensor and range information c. indicator reset d. minimum operating current e. VAP6 test plug f. VIP300LL: tripping curves VIP300LH: table for « equivalent time multiplier » conversion. technical manual VIP300 2. use and settings (cont’d) tripping curves settings low setting SI, VI, EI, phase protection setting 5 The numbers indicated on the curves opposite are those of the phase protection setting switches (refer to the diagram of the front view). RI Set: n setting current Is (4) n type of low setting I> curve (5) IDMT: RI, SI, VI, EI definite time: DT n low setting I> (6) This setting is only active if the low setting curve chosen is of the definite time DT type (fig 2). For the other choices, SI, VI, EI, RI (fig 1), the selector switch is disabled. n low setting time delay t> (7) and (8) n high setting I>> (9) n high setting time delay t>> (10) 8 t> 7 9 earth protection setting The principle is the same as for phase protection. t>> 10 Is 1,2 Is I>> 10 Is 4 Set: n setting current Ios (14) n type of low setting Io> curve (15) IDMT: RI, SI, VI, EI definite time: DT n low setting Io> (16) This setting is only active if the low setting curve chosen is of the definite time DT type. For the other choices, SI, VI, EI, RI, the selector switch is disabled. n low setting time delay to> (17) and (18) n high setting Io>> (19) n high setting time delay to>> (20) fig 1: phase setting : IDMT low threshold 6 low setting DT 5 8 t> 7 operation The high and low settings operate separately. The tripping order results from the "logical OR" between the two settings. 9 t>> Is 4 10 I> 1,2 Is I>> fig 2: phase setting: definite time low threshold technical manual VIP300 5 2. use and settings (cont’d) phase protection 1. phase protection setting zone All the information concerning phase protection is grouped together in the dark zone of the upper half of the front face. 2. setting overrun indicator When the red indicator blinks, it means that the phase protection low setting time delay is running. When this is the case, if the current does not decrease, the relay will trip. n for IDMT curves (SI, VI, EI), the LED lights up when the current is greater than 1.2 times the setting current Is. n for the IDMT curve (RI), it lights up when the current is greater than the Is setting. n for the definite time curve DT, it lights up when the low setting is overrun. F also refer to "indicator reset button". 3. trip indicator It is normally black and turns yellow to indicate that the phase protection has given a tripping order. It stays in the same status, even when the relay is no longer energized. 4. choice of setting current Is The setting current setting range depends on the sensor and range used: the selector switch scale should be adapted to suit the sensor and range using the setting scale label. F also refer to "choice of sensors and operating ranges" chapter. 6. choice of low setting I> The setting is a multiple of the setting current. It is only active for definite time settings (selector switch 5 set to DT). If the tripping curve is selected with IDMT (selector switch 5 set to RI, SI, VI, EI), the selector switch has no effect. 7. setting of low setting time delay t>. n If the tripping curve is of the definite time (DT) type, the selector switch sets the low setting time delay. n If the curve is of the IDMT type (RI, SI, VI, EI), the value displayed is the tripping time for a phase current equal to 10 times the setting current. 8. low setting time delay multiplying factor. In the x10 position, the time delay displayed on selector switch 7 is multiplied by 10. 9. setting of high setting I>>. The high setting is chosen as a multiple of the setting current. In the "off" position, the high setting is disabled. 10. setting of high setting time delay t>>. The time delay is set directly in seconds. 5. choice of type of low setting curve DT: definite time SI: inverse time VI: very inverse time EI: extremely inverse time RI: specific curve off: low setting is disabled. 6 technical manual VIP300 2. use and settings (cont’d) earth protection The setting principle is the same as for phase protection. 11. earth protection setting zone The earth protection settings are grouped together in the dark zone of the lower half of the front face. 15. choice of type of low setting curve DT: definite time SI: inverse time VI: very inverse time EI: extremely inverse time RI: specific curve off: low setting is disabled. 12. setting overrun indicator When this indicator blinks, it means that the earth protection low setting time delay is running. When this is the case, if the current does not decrease, the relay will trip. n for IDMT curves (SI, VI, EI), the LED lights up when the current is greater than 1.2 times the setting current Ios. n for the IDMT curve (RI), it lights up when the current is greater than the Ios setting. n for the definite time curve DT, it lights up when the low setting is overrun. F for the cases above, the LED only lights up when a phase current is greater than the minimum operating current. F also refer to "indicator reset button". 16. choice of low setting Io> 13. trip indicator In the x10 position, the time delay displayed on selector switch 17 is multiplied by 10. It is normally black and turns yellow to indicate that the phase protection has given a tripping order. It stays in the same status, even when the relay is no longer energized. 14. choice of setting current Ios This is the maximum residual current that can flow in the network without the protection being triggered. The Ios current setting range depends on the sensor and range used: the selector switch scale should be adapted to suit the sensor and range using the setting scale label. F also refer to "choice of sensors and operating ranges" chapter. technical manual VIP300 The setting is a multiple of the setting current. It is only active for definite time settings (selector switch 15 set to DT). If the tripping curve is selected with IDMT (selector switch 15 set to RI, SI, VI, EI), the selector switch has no effect. 17. setting of low setting time delay to>. n If the tripping curve is of the definite time (DT) type, the selector switch sets the low setting time delay n If the curve is of the IDMT type (RI, SI, VI, EI), the value displayed is the tripping time for an earth current equal to 10 times the setting current. 18. low setting time delay multiplying factor. 9. setting of high setting Io>>. The high setting is chosen as a multiple of the setting current Ios. In the "off" position, the high setting is disabled. 10. setting of high setting time delay t>>. The time delay is set directly in seconds. 7 2. use and settings (cont’d) other functions verso recto sensors: CRb 51007004F0 VIP300LL range: x 1 sensors: CRb 51007004F0 VIP300LL range: x 4 Is Is 131 150 175 112 200 94 225 75 250 62 312 281 (A) 525 600 700 800 450 375 900 1000 300 250 1250 1125 (A) minimum operating phase current : 62A minimum operating phase current:250A Ios 75 Ios 300 400 50 37 25 12.5 6.2 250 (A) 100 125 156 187 218 200 500 150 100 625 750 50 25 1000 875 (A) - setting scale label - - how to install the setting scale label - 8 a. setting scale label n it should be mounted on the VIP300 when it is assembled on the circuit breaker. The label indicates the scales for the phase setting current and earth protection setting current. It is inserted, from the top, behind the transparent part of the front face. n each VIP300 comes with a set of labels. Install the label that matches: - the type of sensor used - the VIP300 model - the range used n each setting scale label matches a sensor and is printed on both sides for each of the 2 ranges. The label may therefore be turned around if the VIP300 range is changed during the service life of the installation. F also refer to "assembly" chapter. d. minimum operating current The minimum operating current is the phase current required for the relay to be energized and operational. It is printed on each setting scale label. The value given on the setting scale label is the single-phase rms minimum operating current. The minimum operating current is always the lowest setting current setting. F note regarding minimum operating current: The VIP300 does not operate below the minimum operating current level. As a result, if the earth protections are set below the minimum operating current, they will only take effect when there is phase current greater than or equal to the minimum operating current. b. sensor and range indication The text is printed on the setting scale label. When the label is installed in the slot, the text is hidden by an opaque zone. It is not visible to the user. c. indicator reset button The button is accessible when the transparent cover is closed. When the button is pressed, 2 actions are triggered: n it resets (black position) the 2 phase and earth trip indicators. When the relay is no longer energized, it is still possible to reset the indicators for about 48 hours. After that time, they may be reset after the VAP6 is plugged in. n it triggers the lighting up of the 2 red LEDs (about 3 sec). This indicates that: - the relay is energized. The indicator lights up when the current is greater than the minimum operating current. - relay self-testing results are OK. If one of the two conditions is not met, the indicators do not light up. This function may be used to carry out a basic relay operation test. e. VAP6 test plug The test plug is exclusively designed for connection of the VAP6 which is used for fast, simplified relay testing. The operation may be carried out while the relay is operating since the VAP6 and VIP300 provide the possibility of testing with inhibition of circuit breaker tripping. F also refer to the "testing of the VIP300 and use of the VAP6" chapter. - testing of the VIP300 using the VAP6 - technical manual VIP300 3. choice of sensors and operating ranges selection principle sensors range Choose the sensor to be used and the VIP300 connection range in accordance with the desired operating range. Refer to the charts below. The VIP300 should be used with the specified sensors. The relay/sensor assembly must be used together in order to comply with the characteristics, in particular: - operation across the range - response time - accuracy - short-circuit current behaviour It is compulsory for the 3 sensors to be of the same type. The VIP300 relay contains input transformers that have an intermediary tap on the primary winding. Each tap corresponds to a rating with a different operating range. VIP300LL model ranges: - X1 - X4 VIP300LH model ranges: - X2 - X4 sensors specified for VIP300LL: - CRa 200/1 51007003F0 (1) - CRb 1250/1 51007004F0 (1) sensors specified for VIP300LH: - Ringmaster 200/1 4509996A0 - Ringmaster 800/1 4509169A0 (1): for RM6 model 98 and higher. VIP300LL model operating ranges range x1 CRa 1k 50 10 4k 200 40 range x4 62,5 312 6,25K range x1 CRb 1,25K 250 25K range x4 10 20 30 60 100 200 300 600 1k 2k 3k 6k 10k 20K Amps VIP300LH model operating ranges 20 2k 100 range x2 4k 200 40 Ringmaster 200/1 range x4 8K 400 80 range x2 160 Ringmaster 800/1 16K 800 range x4 10 20 30 60 100 200 operating current Is setting range selective operating range technical manual VIP300 300 600 1k 2k 3k 6k 10k 20K Amps For a given operating range, the bottom of the setting current range represents the relay minimum operating current. 9 4. connection scheme wiring to x1 (or x2) range 1 VIP300LL (VIP300LH) 2 3 P1 P1 P1 P2 S1 P2 S1 P2 S1 (x2) 4 x1 3 x4 6 x 1 (x2) 5 x4 8 x 1 (x2) 7 x4 L3 connection using fast-on clips The standard way to connect the VIP300 is by means of 6.35 mm faston clips. L2 S2 S2 The connection is made on the back of the VIP300 L1 S2 1 x4 2 x 1 (x2) Io 9 10 11 12 13 14 MITOP + 0V 15 16 wiring to x4 range 1 VIP300LL (VIP300LH) 2 3 P1 P1 P1 P2 S1 P2 S1 P2 S1 (x2) 4 x1 3 x4 6 x 1 (x2) 5 x4 8 x 1 (x2) 7 x4 L3 L2 S2 S2 L1 S2 1 x4 2 x 1 (x2) Io 9 10 11 12 13 14 MITOP + 10 0V 15 16 technical manual VIP300 5. assembly cut-out 161 0.5mm The VIP300 is flush-mounted in a rectangular cut-out made in a metal plate 3 mm thick at the most. 130 0.5mm - drilling of cut-out - assembly V N E P n insert the VIP300 in the cut-out and correctly position the 2 lower pins (E) of the casing on the edge of the metal plate cut-out. n tighten the screws (V) on the 2 mounting lugs accessible via the front face after having opened the transparent cover. n after tightening, make sure that the latch (N) of each lock (visible on the rear face) is in the vertical position, pressing against the support plate. F the latch may be put into the vertical position by loosening each of the screws (V) before tightening them. n the hole (P) may be used to leadseal the relay after the setting scale label is installed and the settings are made. installation of the setting scale label M technical manual VIP300 n slide the setting scale label into position behind the transparent part of the front face. F refer to the section entitled "choice of the setting scale label". n make sure that the information given at the top of the label (M) matches: the sensor used (sensor) the VIP300 model the range used (range) This information is hidden when the label is in position. n make sure that it is pushed right to the bottom of the slot. n to remove the label, use the hole in the top, if necessary with the help of the tip of a pencil or a screwdriver. 11 5. assembly (cont’d) choice of the setting scale label for VIP 300 LL with CRa sensors verso recto sensors: CRa 51007003F0 VIP300LL range: x 1 32 18 15 36 40 12 10 50 45 (A) minimum operating phase current : 10A 8 12 16 20 25 6 4 2 1 sensor: CRa 51007003F0 VIP300LL range: x 4 84 96 112 72 128 60 144 48 160 40 200 180 (A) minimum operating phase current :40A Ios Ios 30 40 35 (A) x 1 range 32 48 64 24 80 16 100 120 8 4 160 140 (A) x 4 range for VIP 300 LH with 200/1 RMR sensors recto verso sensor: CRb 51007004F0 VIP300LL range: x 1 sensor: CRb 51007004F0 VIP300LL range: x 4 Is Is 131 150 175 112 200 94 225 75 250 63 312 281 525 600 700 800 450 375 900 1000 300 250 1250 1125 (A) (A) minimum operating phase current : 63A minimum operating phase current:250A Ios75 Ios 300 50 37 25 12.5 6.3 250 100 125 156 187 218 200 150 100 50 25 400 500 625 750 1000 875 (A) (A) x 1 range x 4 range for VIP 300 LH with 800/1 RMR sensors recto verso sensor: 200/1: 4509996A0 sensor: 200/1: 4509996A0 sensor: 800/1 4509169A0 VIP300LH range: x 2 VIP300LH range: x 4 VIP300LH range: x 2 sensor: 800/1 4509169A0 VIP300LH range: x 4 Is Is 168 192 224 144 256 288 120 96 320 80 400 360 (A) 384 448 336 288 512 240 576 640 192 160 800 720 minimum operating phase current : 80A minimum operating phase current:160A Ios 96 Ios 192 Is Is 42 48 56 36 64 30 72 24 80 20 100 90 (A) 84 96 112 72 128 60 144 48 160 40 200 180 (A) minimum operating phase current : 20A minimum operating phase current : 40A Ios Ios 16 24 32 12 8 4 40 50 60 2 80 70 (A) x 2 range 12 verso recto Is Is 21 24 28 for VIP 300 LL with CRb sensors 32 48 64 24 80 16 100 120 8 4 160 140 (A) x 4 range 64 48 32 16 8 128 160 200 240 320 280 (A) x 2 range (A) 256 128 320 96 64 400 480 32 16 640 560 (A) x 4 range technical manual VIP300 6. IDMT tripping curves n the curves in this chapter indicate the IDMT low setting tripping times for the 16 time delay t> (or to>) settings. n the phase protection and earth protection curves are the same. n the numbers given on the right of the curves represent the position of the time delay t> (or to>) selector switch. (if the multiplying factor x1 / x10 is in the x10 position, multiply the times indicated by 10). SI curve SI 1,2 Is 100 t (s) 10 1 0,6 0,4 0,3 0,2 0,15 0.1 0,1 0,07 0,05 0.01 1 10 100 I/Is technical manual VIP300 13 6. tripping curves (cont’d) VI curve VI 1,2 Is 100 t (s) 10 1 0,6 0,4 0,3 0.1 0,2 0,15 0,1 0,07 0,05 0.01 1 10 100 I/Is 14 technical manual VIP300 6. tripping curves (cont’d) EI curve EI 1,2 Is 1000 100 t (s) 10 1 0,6 0.1 0,4 0,3 0,2 0,15 0,1 0,07 0,05 0.01 1 10 100 I/Is technical manual VIP300 15 6. tripping curves (cont’d) RI curve RI 10 1 0,6 t (s) 0,4 0,3 0,2 0,15 0.1 0,1 0,07 0,05 0.01 1 10 100 I/Is 16 technical manual VIP300 7. technical characteristics phase protection low setting I> low setting time delay t> definite time IDMT high setting I>> high setting time delay t>> % of pick-up storage time earth protection low setting Io> low setting time delay to> definite time IDMT high setting Io>> high setting time delay to>> % of pick-up storage time general characteristics steady thermal resistance 1 sec thermal resistance accuracy ± 5% or 0/+2A see notes 1 ± 2% or ± 20 ms class 5 according to IEC 60255-3 or 0/+20ms ± 5% ± 2% or ± 20 ms 95% 20 ms 2, 8 2, 8 accuracy ± 5% or 0/+2A see notes 3, 4, 5 ± 2% or ± 20 ms class 5 according to IEC 60255-3 or 0/+25ms ± 5% ± 2% or ± 20 ms 95% 20 ms 2, 8 2, 5, 8 value 240 A 1500 A 240 A 960 A 25 kA/1s 25 kA/1s 20 kA/1s operating frequency operating temperature storage temperature weight 50 Hz ± 10%, 60 Hz ± 10% -25° C to +70° C -40°C to +85°C 1.7 kg minimum operating current VIP300LL + CRa sensor range x1 x4 x1 x4 x1 x2 x1 x2 VIP300LL + CRb sensor VIP300LH + RMR 200/1 sensor VIP300LH + RMR 800/1 sensor value 10A 40A 62A 250A 20A 40A 80A 160A 2 2, 8 with CRa sensor with CRb sensor with RMR 200/1 sensor with RMR 800/1 sensor with CRa, CRb, RMR800/1 sensors with RMR200/1 sensor on range x2 with RMR200/1 sensor on range x4 see notes 7 climatic resistance low temperature operation low temperature storage high temperature operation high temperature storage fast changes in temperature operation in damp heat salt spray standard IEC 60068-2-1 IEC 60068-2-1 IEC 60068-2-2 IEC 60068-2-2 IEC 60068-2-14 IEC 60068-2-3 IEC 60068-2-52 severity -25°C, 16h -40°C, 96h +70°C, 16h +85°C, 96h -25°C to +70°C, 5 cycles 56 days, 93% RH severity 1 mechanical resistance vibrations shocks and jolts earthquakes enclosure protection index fire resistance standard IEC 60255-21-1 IEC 60255-21-2 IEC 60255-21-3 EN 60529 IEC 60695-2-1 severity class 2 class 2 class 2 IP54, (cover closed) 650°C technical manual VIP300 17 7. technical characteristics (cont’d) electrical resistance sensor input isolation 1.2/50 µs impulse voltage 1 MHz dampened oscillating wave standard IEC 60255-5 IEC 60255-5 IEC 60255-22-1 rapid transient bursts 1.2/50(8-20 µs) hybrid wave electrostatic discharge HF electromagnetic field IEC 60255-22-4 IEC 61000-4-5 IEC 60255-22-2 IEC 60255-22-3 EN 50082-2 EN 50082-2 severity 2 kV rms, 50 Hz, 1 mn 5 kV, note 6 2,5 kV cm, note 6 1 kV dm 4 kV cm and dm, 5 kHz burst, note 6 2 kV, 42 ohms, note 6 8 kV in air, 6 kV on contact 30V/m not modulated, 27 to 1000 MHz 10 V/m mod. ampl., 80 to 1000 MHz 10 V/m mod.impuls., 900 MHz notes 1. Value given for three-phase VIP300 power supply. For single-phase operation, the accuracy range is ± 10% or 0/+4A. For the low setting, this does not generally represent a real operating situation. However, it may occur during injection testing carried out with single-phase. The error is mainly due to the nonlinearity of the sensors and VIP300 input transformers with weak current, the inaccuracy being accentuated when the relay is only supplied by one phase. 2. The accuracy is indicated for a fault that occurs when the VIP300 is already supplied by the current let through by the circuit breaker. The accuracy is indicated for sinusoidal current. In the event of closing while a fault is present, the tripping time may be extended by: +30 ms at 1.5 Is +20 ms from 2 Is to 10 Is +10 ms above 10 Is 18 3. Generally speaking, the accuracy ranges of earth protection times and settings are indicated for when the VIP300 is supplied by current that is greater than or equal to the minimum operating current. The measurement of a setting for earth protection with single-phase supply is therefore not significant if the setting is lower than the minimum operating current. 5. In the following specific conditions: - VIP300LL - with CRa sensor - wiring to x1 range - if Ios < 8A - if phase current < 20A the setting and time delay characteristics are: - low settings: ±10% 0/+4A - class not specified 4. Value given for three-phase VIP300 supply. For single-phase testing, the accuracy is ± 10% or 0/+4A. For the low setting, this may occur when the earth protection is tested with single-phase supply, and no supply by the other phases. 6. Not applicable to test plug 7. Accuracy ± 10% or ± 1.5A. The value indicates the guaranteed minimum operating current for singlephase operation. With three-phase oepration, it may be less than the value indicated. 8. The tripping times indicated do not include the mitop response time. Its tripping time depends on its mechanical load (for no load, its tripping time is less than 5 ms) technical manual VIP300 7. technical characteristics (cont’d) dimensions raccordemen 22 179 90 139 6 127 159 technical manual VIP300 19 8. testing of the VIP300 and use of the VAP6 presentation of the VAP6 external mitop - + battery test on test in progress trip phase overcurrent trip inhibition earth fault test phase overcurrent test phase overcurrent VIP30 VIP35 VIP300 VIP50 VIP37 earth fault trip trip inhibition circuit breaker mitop external mitop VIP11,11R VIP12R VIP13 VIP17 VIP200,201 circuit breaker mitop VAP 6 - VAP6 front panel - 20 The VAP6 is a portable unit that is connected to the VIP300 to carry out simplified testing. The test can be carried out in the following two cases: - the VIP300 is already supplied by the sensors. - the VIP300 is not supplied. In this case, the VAP6 batteries supply power to the relay. The test consists of: - starting up the VIP300 central unit self-testing sequence. - injecting a stimulus to simulate a phase fault. - injecting a stimulus to simulate an earth fault. - checking tripping. Frefer to the description of the test in the section entitled "test sequence" F the VAP6 is supplied by batteries. Therefore the parts of the VIP300 that run on AC current are not checked using this method (input and supply circuits). push-buttons n battery test: if the batteries are OK, the "on" indicator lights up while the button is pushed. n phase overcurrent: it sends the phase protection test stimulus. The stimulus is equivalent to 20 times the setting current Is. n earth fault: it sends the earth protection test stimulus. The stimulus is equivalent to 20 times the earth setting current Ios. n trip inhibition: press the "trip inhibition" button if the VIP300 test should be carried out without tripping of the circuit breaker. Circuit breaker tripping is inhibited while the ’trip inhibition" button is pressed, even if the tripping order results from a real fault. indicators n on: indicates that the batteries are operating. Also lights up when the battery test is carried out by pressing "battery test". n test in progress: confirms sending of the test stimulus to the VIP300. n trip: it is used to test other relays in the VIP range. It is not to be considered for the VIP300 test. (it lights up for a transient period when the VIP300 sends a tripping order; whether or not the circuit breaker is inhibited). "external mitop" output It may be used to connect an auxiliary mitop designed, for instance, to stop a stop watch during operating tests. The mitop is triggered at the same time as the circuit breaker mitop. It is not inhibited by pressing the "trip inhibition" button. batteries n the batteries are normally deactivated and are automatically activated when the VAP6 is connected to the VIP300. They are activated in the following cases: - pressing the "battery test" button. - direct connection to a VIP3X or VIP5X relay. - connection to the adapter cord designed for testing of the VIP1X or VIP2X relays. n to install or change the batteries, open the unit by removing the 4 screws on the bottom of the unit. Be sure to use the correct polarities. technical characteristics supply: batteries weight: dimensions: 3 x 9V 6LR61 0.45 kg 93x157x45 technical manual VIP300 8. testing of the VIP300 and use of the VAP6 (cont’d) VAP6 test sequence The test may be carried out with or without current in the sensors. During the test operations, all the VIP300 settings are effective; the relay should perform in accordance with the settings. During the test, the relay remains operational and will give a tripping order in the event of a fault, unless the "trip inhibition" button is pressed. n connect the VAP6 to the "VAP6 test plug". The VAP6 batteries are activated and the "on" indicator lights up. n press the VIP300 "reset" button. - if the 2 "trip" indicators were yellow, they become black. - the 2 red I> and Io> indicators of the VIP300 light up for about 3s to indicate that the central unit has correctly performed self-testing. n press the "trip inhibition" button if the test should be carried out without tripping of the circuit breaker. Fbe sure to continue pressing the "trip inhibition" button throughout the time it takes to send the stimulus. technical manual VIP300 n press the "phase overcurrent" button to send the phase protection test stimulus. - continue pressing the button throughout the duration of the stimulus. The stimulus represents about 20 times the setting current Is. - the VAP6 "test in progress" indicator lights up to confirm the sending of the stimulus to the VIP300 relay. - the red "I>" indicator of the VIP300 blinks during the time delay period. - then the VIP300 phase "trip" indicator turns yellow. - the circuit breaker trips if it is not inhibited. F if the "phase overcurrent" button is held down after tripping, the VIP300 starts the time delay/tripping cycle again; this is normal operation. In that case: - the VAP6 red "trip" indicator lights up for a transient period each time there is a trip. - depending on the time delay setting, the VIP300 red "I>" indicator may be off or blink rapidly and/or in an irregular manner. n press "earth fault" to test operation of the earth protection. The stimulus injected is equal to 20 times the setting current Ios. Use the same procedure as for the phase protection test. n disconnect the VAP6. In order to save batteries, do not leave the VAP6 connected to the relay unnecessarily. 21 Notes 22 technical manual VIP300 Notes technical manual VIP300 23 Schneider Electric SA Postal address F-38050 Grenoble cedex 9 Tél : +33 (0)4 76 57 60 60 Télex : merger 320842F http://www.schneider-electric.com Rcs Nanterre B 954 503 439 As standards, specifications and designs change from time to time, please ask for information given in this publication This document has been printed on ecological paper Publishing: Schneider Electric SA Design, production: Schneider Electric SA Printing: Rcs Nanterre B 954 503 439 PCRED399008EN ART. 20499 24 04 / 1999 technical manual VIP300